&lt;p&gt;A Novel Epitope Quality-Based Immune Escape Mechanism Reveals Patient’s Suitability for Immune Checkpoint Inhibition&lt;/p&gt;

Wessolly, Michael; Stephan-Falkenau, Susann; Streubel, Anna; Werner, Robert A.; Borchert, Sabrina; Griff, S; Mairinger, Elena; Walter, Robert Fred Henry; Bauer, Torsten T.; Eberhardt, Wilfried; Blum, Torsten; Schmid, Kurt Werner; Kollmeier, Jens; Mairinger, Thomas; Mairinger, Fabian

doi:10.2147/cmar.s258396

Cited by 6 publications

(12 citation statements)

References 31 publications

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“…One way of achieving this is altering the presented protein fragment’s size and therefore affinity to bind to the MHC-class I-complex or recognizability to the TCR, which has been identified as a pivotal mechanism in viral infections [ 40 , 41 ]. We have recently shown this mechanism to be active through exonic mutations leading to the altered proteasomal processing of epitopes (“processing escapes”) in lung cancer [ 19 ]. As a result of changes in the chemical composition of the amino acid sequence due to non-synonymous somatic mutations, the proteasomal cleavage properties may change as the different proteasomal subunits show different cleavage preferences for acidic, basic, or hydrophobic amino acids [ 42 ].…”

Section: Discussionmentioning

confidence: 99%

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Proteasomal Processing Immune Escape Mechanisms in Platinum-Treated Advanced Bladder Cancer

Wessolly

Mairinger

Herold

et al. 2022

Genes

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In recent years, the number and type of treatment options in advanced bladder cancer (BC) have been rapidly evolving. To select an effective therapy and spare unnecessary side effects, predictive biomarkers are urgently needed. As the host’s anti-cancer immune response is by far the most effective system to impede malignant tumor growth, immune system-based biomarkers are promising. We have recently described altered proteasomal epitope processing as an effective immune escape mechanism to impair cytotoxic T-cell activity. By altering the neoantigens’ characteristics through different proteasomal peptide cleavage induced by non-synonymous somatic mutations, the ability for T-cell activation was decreased (“processing escapes”). In the present study, we analyzed primary chemo-naïve tissue samples of 26 adjuvant platinum-treated urothelial BC patients using a targeted next-generation sequencing panel followed by the epitope determination of affected genes, a machine-learning based prediction of epitope processing and proteasomal cleavage and of HLA-affinity as well as immune activation. Immune infiltration (immunohistochemistries for CD8, granzyme B, CD45/LCA) was digitally quantified by a pathologist and clinico-pathological and survival data were collected. We detected 145 epitopes with characteristics of a processing escape associated with a higher number of CD8-positive but lower number of granzyme B-positive cells and no association with PD-L1-expression. In addition, a high prevalence of processing escapes was associated with unfavorable overall survival. Our data indicate the presence of processing escapes in advanced BC, potentially creating a tumor-promoting pro-inflammatory environment with lowered anti-cancerous activity and independence from PD-L1-expression. The data also need to be prospectively validated in BC treated with immune therapy.

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Section: Discussionmentioning

confidence: 99%

“…We have previously shown that alterations in proteasomal antigen processing can be a general mechanism of immune escape in lung cancer [ 19 ]. In the present study, we analyzed if this mechanism is also effective in advanced platinum-treated BC.…”

Section: Introductionmentioning

confidence: 99%

Proteasomal Processing Immune Escape Mechanisms in Platinum-Treated Advanced Bladder Cancer

Wessolly

Mairinger

Herold

et al. 2022

Genes

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“…These may bring on ineffective neoantigen-specific T cell activation owing to a loss of binding affinity between the neoantigen and the MHC I complex or alteration of the complex's affinity for binding to the TCR. Lung cancer 105 and advanced bladder cancer 106 had a latent immune escape mechanism by altering proteasome antigen processsing. Meanwhile, HLA loss or mutation affected the stability of MHC and production of HLA enhancers, thus, disrupting antigen presentation, which provided an alternative mechanism for immune evasion 103 , 107 , 108 .…”

Section: Neoantigen Vaccines and Immunementioning

confidence: 99%

Engineering neoantigen vaccines to improve cancer personalized immunotherapy

Lv¹,

Dang²,

Liu³

et al. 2022

Int. J. Biol. Sci.

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Immunotherapy treatments harnessing the immune system herald a new era of personalized medicine, offering considerable benefits for cancer patients. Over the past years, tumor neoantigens emerged as a rising star in immunotherapy. Neoantigens are tumor-specific antigens arising from somatic mutations, which are proceeded and presented by the major histocompatibility complex on the cell surface. With the advancement of sequencing technology and bioinformatics engineering, the recognition of neoantigens has accelerated and is expected to be incorporated into the clinical routine. Currently, tumor vaccines against neoantigens mainly encompass peptides, DNA, RNA, and dendritic cells, which are extremely specific to individual patients. Due to the high immunogenicity of neoantigens, tumor vaccines could activate and expand antigen-specific CD4+ and CD8+ T cells to intensify anti-tumor immunity. Herein, we introduce the origin and prediction of neoantigens and compare the advantages and disadvantages of multiple types of neoantigen vaccines. Besides, we review the immunizations and the current clinical research status in neoantigen vaccines, and outline strategies for enhancing the efficacy of neoantigen vaccines. Finally, we present the challenges facing the application of neoantigens.

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“…Modern immunotherapeutic approaches have already been investigated in clinical trials in MPM [56][57][58]. One possible explanation for different responses might be in the processing and presentation of tumor-specific epitopes [59,60] important for the activation of tumor-specific T-cells [61]. A complex intracellular pathway is involved in processing these antigenic peptides (Figure S2).…”

Section: Antigen Processing and Presentationmentioning

confidence: 99%

Digital Gene Expression Analysis of Epithelioid and Sarcomatoid Mesothelioma Reveals Differences in Immunogenicity

Brčić

Mathilakathu

Walter

et al. 2021

Cancers

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Malignant pleural mesothelioma (MPM) is an aggressive malignancy associated with asbestos exposure. Median survival ranges from 14 to 20 months after initial diagnosis. As of November 2020, the FDA approved a combination of immune checkpoint inhibitors after promising intermediate results. Nonetheless, responses remain unsatisfying. Adequate patient stratification to improve response rates is still lacking. This retrospective study analyzed formalin fixed paraffin embedded specimens from a cohort of 22 MPM. Twelve of those samples showed sarcomatoid, ten epithelioid differentiation. Complete follow-up, including radiological assessment of response by modRECIST and time to death, was available with reported deaths of all patients. RNA of all samples was isolated and subjected to digital gene expression pattern analysis. Our study revealed a notable difference between epithelioid and sarcomatoid mesothelioma, showing differential gene expression for 304/698 expressed genes. Whereas antigen processing and presentation to resident cytotoxic T cells as well as phagocytosis is highly affected in sarcomatoid mesothelioma, cell–cell interaction via cytokines seems to be of greater importance in epithelioid cases. Our work reveals the specific role of the immune system within the different histologic subtypes of MPM, providing a more detailed background of their immunogenic potential. This is of great interest regarding therapeutic strategies including immunotherapy in mesothelioma.

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<p>A Novel Epitope Quality-Based Immune Escape Mechanism Reveals Patient’s Suitability for Immune Checkpoint Inhibition</p>

Cited by 6 publications

References 31 publications

Proteasomal Processing Immune Escape Mechanisms in Platinum-Treated Advanced Bladder Cancer

Proteasomal Processing Immune Escape Mechanisms in Platinum-Treated Advanced Bladder Cancer

Engineering neoantigen vaccines to improve cancer personalized immunotherapy

Digital Gene Expression Analysis of Epithelioid and Sarcomatoid Mesothelioma Reveals Differences in Immunogenicity

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